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EDURI CLASS > [기본이론] 방사선 장해방어
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[기본이론] 방사선 장해방어

이재승 교수님

· 방사성동위원소 취급자 일반면허(RI)대비 ‘원자력이론’ 기본 개념강의입니다.
· 담당 교수님 Q&A 서비스를 지원하지 않는 강좌입니다.

220,000 WON

수강기간 : 180일

    강의 목록
    번호 제목 첨부파일 영상재생 음성재생 런닝타임
    1 제1강 방사선과 관련된 양과 단위(1) 43분
    2 제2강 방사선과 관련된 양과 단위(2) 첨부파일 아이콘 42분
    3 제3강 방사선과 관련된 양과 단위(3) 41분
    4 제4강 방사선과 관련된 양과 단위(4) 37분
    5 제5강 방사선과 관련된 양과 단위(5) 30분
    6 제6강 방사선과 관련된 양과 단위(6) 29분
    7 제7강 방사선과 관련된 양과 단위(7) 36분
    8 제8강 방사선과 관련된 양과 단위(8) 33분
    9 제9강 방사선과 관련된 양과 단위(9) 50분
    10 제10강 방사선과 관련된 양과 단위(10) 32분
    11 제11강 방사선과 관련된 양과 단위(11) 33분
    12 제12강 방사선과 관련된 양과 단위(12) 36분
    13 제13강 방사선과 관련된 양과 단위(13) 49분
    14 제14강 방사선이 인체에 미치는 영향(1) 35분
    15 제15강 방사선이 인체에 미치는 영향(2) 34분
    16 제16강 방사선이 인체에 미치는 영향(3) 24분
    17 제17강 방사선이 인체에 미치는 영향(4) 45분
    18 제18강 방사선이 인체에 미치는 영향(5) 32분
    19 제19강 방사선이 인체에 미치는 영향(6) 31분
    20 제20강 방사선이 인체에 미치는 영향(7) 31분
    21 제21강 방사선 방호의 기준(1) 30분
    22 제22강 방사선 방호의 기준(2) 40분
    23 제23강 방사선 방호의 기준(3) 33분
    24 제24강 방사선 방호의 기준(4) 38분
    25 제25강 방사선 방호의 기준(5) 35분
    26 제26강 방사선 방호의 기준(6) 37분
    27 제27강 방사선 방호의 기준(7) 45분
    28 제28강 방사선 방호의 기준(8) 34분
    29 제29강 방사선 방호의 기준(9) 첨부파일 아이콘 36분
    30 제30강 방사선 방호의 원칙(1) 33분
    31 제31강 방사선 방호의 원칙(2) 29분
    32 제32강 방사선 방호의 원칙(3) 40분
    33 제33강 방사선 방호의 원칙(4) 첨부파일 아이콘 47분
    34 제34강 방사선 방호의 원칙(5) 46분
    35 제35강 방사선 모니터링(1) 37분
    36 제36강 방사선 모니터링(2) 30분
    37 제37강 방사선 모니터링(3) 35분
    38 제38강 방사선 모니터링(4) 45분
    39 제39강 방사선 모니터링(5) 28분
    40 제40강 방사선 모니터링(6) 41분
    41 제41강 방사선 모니터링(7) 35분
    42 제42강 방사성동위원소 등의 취급 기술(1) 30분
    43 제43강 방사성동위원소 등의 취급 기술(2) 36분
    44 제44강 방사성폐기물의 관리(1) 52분
    45 제45강 방사성폐기물의 관리(2) 42분

[기본이론] 방사선 장해방어

· 방사성동위원소 취급자 일반면허(RI)대비 ‘원자력이론’ 기본 개념강의입니다.
· 담당 교수님 Q&A 서비스를 지원하지 않는 강좌입니다.

교재 목록
제목 저자 발행일 가격
교재 썸네일 이미지
장해방어 이재승 교수 2019-09-25 18,000

장해방어

목차

  1. 1 : 방사선과 관련된 양과 단위

     

     

    PART 1. 방사선의 일반적인 양과 단위

     

    1. 방사능(RADIOACTIVITY) ··············································································· 6

     

    2. 방사선장을 평가하는 양 : 플루언스(FLUENCE) ················································ 8

     

    3. 방사선과 물질과의 상호작용 확률을 나타내는 양 ·············································· 11

     

    4. 저지능, LET, 비전리 ····················································································· 14

     

    5. ()반응 단면적 ····························································································· 15

     

    PART 2. 방사선 방호와 관련된 양과 단위

     

    1. 조사선량 (EXPOSURE DOSE. X) ···································································· 15

     

    2. 흡수선량 (Absorbed dose. D) ······································································· 16

     

    3. Kerma (Kinetic energy released in material. K) ··········································· 22

     

    4. 실용량 (operational quantity) ········································································ 24

     

    5. 선량당량 (dose equivalent. H) ······································································· 26

     

    6. 등가선량 (equivalent dose. HT) ···································································· 27

     

    7. 유효선량 (Effective dose. HE) ········································································ 30

     

    8. 기타선량 ······································································································· 32

     

     

    2 : 방사선이 인체에 미치는 영향


    PART 1. 방사선의 생물학적 작용 기전

     

    1. 전리 방사선에 의한 세포의 방사선 손상 (4단계) ··············································· 37

     

    2. 분자 수준에서 방사선 장해 ··········································································· 38

     

    3. 분자 작용 모델 (선량-반응 선형 2차 모델) ···················································· 41

     

    4. 저 선량 영역에서 선량-반응 곡선 ·································································· 43

     

    PART 2. 방사선 감수성(RADIATION SENSITIVITY)

     

    1. 조직(장기)의 방사선 감수성 ················································································· 44

     

    2. 상대적 생물학적 효과비 (RBE) ············································································· 45

     

    3. 산소효과 (Oxygen effect) ·················································································· 46

     

    4. 방사선 방호제 (Radio-protective agents) ··························································· 48

     

    PART 3. 방사선이 인체에 미치는 영향

     

    1. 방사선 생물학적 작용의 분류 (ICRP Pub. No. 60) ··············································· 49

     

    2. 방사선 장해의 분류 ··························································································· 50

     

    3. 급성 효과와 만성 효과 : 잠복기(증상출현시기)에 따라··········································· 51

     

    4. 결정적 영향과 확률적 영향 ··················································································51

     

    5. 태아의 방사선 영향 ························································································· 56

     

    6. 확률적 영향 (STOCHASTIC EFFECT) ································································· 58

     

    3 : 방사선방호의 기준

     

    PART 1. 방사선방호의 기본 체계

     

    1. ICRP의 설립과 주 권고 ······················································································· 62

     

    2. 방사선방호의 정의 및 목표 ················································································· 64

    3. ICRP 권고에 따른 방사선 방호 목표 ····································································· 64

     

    4. 방사선 방호의 체계 및 원칙 ················································································ 65

     

    PART 2. ICRP Pub. 60103 권고()의 비교

     

    1. ICRP Pub. 103 권고()의 특징 ··········································································· 76

     

    2. ICRP Pub. 103 권고() 변화의 특징 ··································································· 79

     

    PART 3. 방사선 방호의 기본 개념

     

    1. 방사선 피폭 관리 네트워크 ·················································································· 83

     

    2. 방사선 방호의 한도와 준위 ················································································· 85

     

    3. 연간섭취한도(ALI)와 유도공기중농도(DAC) ························································· 86

     

    4 장 방사선 방호의 원칙

     

    PART 1. 외부 피폭의 방호 원칙

     

    1. 시간(TIME):피폭시간 단축 ················································································ 90

     

    2. 거리(DISTANCE) : 거리 역자승 법칙 ································································ 91

     

    3. 차폐(SHIEDING) ····························································································· 92

     

    PART 2. 내부 피폭의 방어 원칙

     

    1. 내부 피폭의 고려 인자 ·················································································· 93

     

    2. 내부 피폭의 방호 원칙 : 격리 희석 차단

     

    PART 3. 방사선 피폭의 구분

     

    1. 방사선 피폭의 구분 ·······················································································96

     

    2. 자연방사선에 의한 피폭 : 2.4mSv/y ······························································· 97

     

    3. 인공 방사선에 의한 피폭 ·················································································· 98

     

    4. 외부 피폭 방사선량의 평가 ················································································101

     

    5. 내부 피폭 방사선량의 평가 ··············································································· 105

     

    5 : 방사선 모니터링

     

    PART 1. 방사선 모니터링

     

    1. 방사선 모니터링 ······························································································· 112

     

    PART2. 개인 피폭 모니터링

     

    1. 체외(외부) 피폭 모니터링 ·················································································· 113

     

    2. 체내(내부) 피폭 모니터링 ·················································································· 114

     

    PART 3. 개인선량계의 종류 및 특징

     

    1. 필름 배지 (Film badge) ···················································································· 115

     

    2. 열형광 선량계 (Thermo-luminescence dosimeter.TLD) ····································· 116

     

    3. 형광 유리 선량계 (Fluorescence glass dosimeter.FGD) ····································· 119

     

    4. 광자극 발광 선량계 (Optically Stimulated luminescence dosimeter, OSLD)········ 120

     

    5. 기타 개인 선량계 ····························································································· 121

     

    PART 4. 환경 모니터링

     

    1. 작업 환경 모니터링 ·························································································· 122

     

    2. 시설 주변 환경 모니터링 ··················································································· 126

     

    6 : 방사성동위원소 등의 취급 기술

     

     

    1. 밀봉 방사성 동위원소의 취급 ······································································· 128

     

    2. 비 밀봉 방사성 동위원소의 취급 ······································································· 130

     

    7 : 방사성 폐기물의 관리

     

    PART 1. 방사성 폐기물의 분류

     

    1. 방사성 폐기물의 정의 및 분류 ······································································· 136

     

    PART 2. 방사성 폐기물의 처리

     

    1. 기체 방사선 폐기물의 처리 ······································································· 137

     

    2. 액체 방사성 폐기물의 처리 ······································································· 139

     

    3. 고체 방사성 폐기물의 처리 ······································································· 141

     

    PART 3. 방사성 폐기물의 처분

     

    1. 중ㆍ저준위 방사성 폐기물의 처분 ······································································· 142

     

    2. 고준위 방사성 폐기물의 처분 ······································································· 143

     

     

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  1. 수강 기간의 산정은 반환 사유가 발생한 날까지 경과 된 기간을 기준으로 한다.
  2. 수강료 반환 시 인터넷으로 수강하거나, 저장한(*실제 수강한)부분에 해당하는 금액을 제외하고 반환한다.
  3. 수강 기간이 종료된 경우는 반환하지 않는다.
  4. 수강료 결제 시 발생한 왕복 배송료 등의 해당 금액을 공제한 금액을 반환한다.
  5. 추가적인 혜택이 제공된 특별 기획상품의 경우 부분 환불 시 제공한 혜택을 철회한다.
  6. 7일 이내 환급요청 시 단기간에 수강한 강좌의 수가 과다할 경우 (*수강률 30% 이상) 수강률 기준으로 환급금액을 계산한다.
  7. 학습교재 및 사은품이 무료로 제공된 경우 해당 상품의 반환 이후 청약철회가 개시되며, 무료로 제공된 금품의 상품 가치가 훼손되었을 경우 해당 금액을 제한 금액이 반환된다.
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